Securing of sheet material which is in the form of a liner, a cover or a curtain

ABSTRACT

A mounting is disclosed for securing in place a sheet ( 56 ) which constitutes a liner, cover or curtain. The sheet has an elongate attachment zone ( 60 ) which is thicker than the material of the sheet. The mounting including a clip ( 10.2 ) which is formed with an elongate hollow portion ( 12 ) having a longitudinal slit ( 14 ) along the length thereof. The attachment zone of the sheet is in the hollow portion of the clip with the sheet emerging from the clip through the slit. A cord ( 62 ) is connected to a lashing point ( 64 ). The clip ( 10.2 ) has a passageway ( 40 ) through which the cord ( 62 ) passes thereby to attach the clip and the attachment zone to the lashing point.

CROSS REFERENCE TO RELATED APPLICATIONS

This is a continuation of application Ser. No. 14/527,075, filed Oct. 29, 2014, which claims the benefit of South African Patent Application No. 2014/07040, filed Sep. 29, 2014, and South African Patent Application No. 2013/08869, filed Nov. 26, 2013, the disclosures of which are incorporated herein in their entirety by reference.

FIELD OF THE INVENTION

This invention relates to the securing of sheet material which is in the form of a liner, a cover or a curtain.

BACKGROUND TO THE INVENTION

It is known to protect goods being shipped in a shipping container from variations in temperature by providing a liner in the shipping container. Examples of such liners are disclosed in, PCT specification WO2010/046790 and EP Specification 1 780 147 A1.

The fitting of shipping container liners is not a simple matter as they must be secured to the lashing points of the shipping container in such manner that an air gap is created between the walls and roof of the shipping container and the liner. Also, the liner must not sag down and touch the goods in the container.

In WO 2010/046790 the attachment hooks on the liner are fixed. However the lashing points on containers are not always at the same location. The number of lashing points and the spacing between them varies. Consequently, some hooks are found to be offset from the respective lashing point and this makes satisfactory installation of the liner difficult or even impossible. In respect of the liner is disclosed in EP Specification 1 780 147 A1, using a single piece of webbing on each side of the container and threading it through a number of hooks before trying to pull it taut does not, in practice, work very well. The liner can still sag to an unacceptable extent.

It is not only shipping containers that need to be fitted with liners. The load spaces of some transport trucks and trailers have lashing points. These, if the goods being transported require it, have to be fitted with liners.

The term “shipping container” as used herein consequently encompasses not only the ISO type of container used mainly for sea transport but also trucks and trailers which have lashing points.

There are other circumstances where sheet material must be secured in place. An example is that of tarpaulins which are used to cover goods on, for example, an open vehicle. Tarpaulins usually have eyelets and a cord is threaded through the eyelets and around hooks or other protuberances on the vehicle. Threading the cord through the eyelets, then around whatever mountings are provided can be time-consuming. In other circumstances sheet material has to be hung to form a curtain.

In all these situations a rapid method of attaching the sheet material to a fixed structure is advantageous.

BRIEF DESCRIPTION OF THE INVENTION

According to one aspect of the present invention there is provided a mounting securing in place a sheet which constitutes a liner, cover or curtain, the sheet having an elongate attachment zone which is thicker than the material of the sheet, the mounting including a clip which is formed with an elongate hollow portion having a longitudinal slit along the length thereof, said attachment zone being in said hollow portion with the sheet emerging from said portion through the slit, and an elongate element connected to a lashing point, said clip having a passageway through which said elongate element passes thereby to attach said clip and the attachment zone to said lashing point.

Said elongate element can be a cord which passes through said passageway, there being a hook on the cord for attachment to the lashing point. In this form said passageway is preferably constituted by the bore of a cylinder, the axes of said cylinder and said hollow portion being parallel to one another.

In a further form said elongate element is a cable tie including a block which has a slot through it, a ratchet tooth in the slot and a strap which has a plurality of transverse ribs, the strap extending from the block and the ribs and ratchet tooth coming into interlocking engagement when the strap is pushed through the slot thereby to prevent the strap being withdrawn from the slot in the opposite direction, said passageway being constituted by an aperture of the clip into which said block fits.

Said attachment zone is preferably formed by folding said sheet over on itself with a cord between the superimposed layers, the layers being secured together to trap the cord.

According to a further aspect of the present invention there is provided the combination of:

-   -   A liner of sheet material which has a top wall, elongate         sidewalls and attachment zones which are thicker than the sheet         material and which extend along the liner where the longer edges         of the top wall join the upper edges of the sidewalls;     -   A shipping container having lashing points;     -   Two sets of clips each of which has an elongate hollow portion         which is formed with a longitudinal slit along the length         thereof, said attachment zones of the liner being in said hollow         portions and the sheet material of the liner emerging from said         hollow portions through said slits, said clips being free to         slide along the attachments zones, each clip having a passageway         therethrough;     -   Hooks attached to the lashing points and having openings         therein; and     -   Cords extending through said openings in the hooks and through         the passageways of the sets of clips, the clips and hooks         alternating along the lengths of the cords.

BRIEF DESCRIPTION OF THE DRAWINGS

For a better understanding of the present invention, and to show how the same may be carried into effect, reference will now be made, by way of example, to the accompanying drawings in which:

FIG. 1 is a side elevation of a liner mounting clip;

FIG. 2 is an end elevation of the clip of FIG. 1;

FIG. 3 is a top plan view of the clip of FIGS. 1 and 2:

FIG. 4 is a side elevation of a further clip;

FIG. 5 is an end elevation of the clip of FIG. 4;

FIG. 6 is a top plan view of the clip of FIGS. 4 and 5;

FIG. 7 is an end view of a third form of clip;

FIG. 8 is a plan view of the clip of FIG. 7;

FIG. 9 is a side elevation of the clip of FIGS. 7 and 8;

FIG. 10 is a side elevation of a hook;

FIG. 11 is a front elevation of the hook;

FIG. 12 is a top plan view of the hook; and

FIG. 13 is a pictorial view illustrating the use of the clip of FIGS. 7 to 9 and the hook of FIGS. 10 to 12.

DETAILED DESCRIPTION OF THE DRAWINGS

The clip illustrated in FIGS. 1, 2 and 3 is designated 10 and comprises a generally cylindrical portion 12 which has a longitudinally extending slit 14 therein. The slit 14 enables the two generally semi-cylindrical portions designated 16, 18 to flex with respect to one another to increase the width of slit 14.

A mounting portion 20 is moulded integrally with the portion 12. The portions 12 and 20 are offset with respect to one another as best seen in the end elevation of FIG. 2.

The mounting portion 20 extends for most of the length of the cylindrical portion 12 and has therein a central aperture which is designated 22. The aperture 22 is closed on three sides. Raised ribs designated 24, 26 and 28 form the boundary of the aperture 22 on these three sides. On the fourth side of the aperture there is a bar designated 30 which, as best seen in FIG. 3, partially closes the fourth side of the aperture 22. One face of the mounting portion 20, that designated 32 in FIG. 2, is planar and the other face, that visible in FIG. 1, is provided with raised strengthening ribs 34 which bound two depressions 36.

The clip 10.1 shown in FIGS. 4 to 6 is similar to that shown in FIGS. 1, 2 and 3 and where applicable like parts of been designated with like reference numerals. The clip 10.1 is smaller than the clip 10 of FIGS. 1 to 3, its cylindrical portion 12 being approximately half the length of the cylindrical portion 12 of the clip of FIGS. 1 to 3, with the mounting portion 16 being commensurately smaller. The aperture 22 in FIGS. 4 to 6 is also of smaller dimensions than the aperture 22 of FIGS. 1 to 3.

The clips are used with what are known in the art as “cable ties”. A cable tie conventionally comprises a locking portion which is in the form of a block which has a slot through it with a flexible ratchet tooth in the slot. The cable tie further has a strap which is integral with the block and has a plurality of transverse ribs. As the strap is pushed through the slot, the ratchet tooth is deformed by the transverse ribs as they pass it. The tooth and the ribs are configured so that there is a locking action between them and the part of the strap that has passed through the slot consequently cannot be pulled back through the slot.

The aperture 22 in FIGS. 1, 2 and 3 is sized so that it can receive the block of a cable tie. The sizing of the aperture 22 is such that the block is a tight fit in the aperture 22.

The part of the strap which is immediately adjacent the block lies against the bar 30 and the remainder of the strap protrudes upwardly from the clip 10 as the clip 10 is viewed in FIG. 1. The dashed lines in that Figure indicate the position of the strap.

The clips and cable ties can be used to mount a thermally reflective liner in a shipping container as is described below. They can also be used to mount any other sheet material such as a tarpaulin the upper edge of which is to be secured to a fixed structure so that the tarpaulin hangs down from the fixed structure to form a curtain.

The liner for the shipping container is fabricated from metallized sheet material and comprises side, top and bottom walls. At one end the liner is closed by an end wall and at the other end it has a flap which can be pulled to a closed position after the cargo has been loaded into the liner.

As the liner is fabricated, cords are incorporated into it. In the preferred form there are vertical cords where the side walls join the end wall and horizontal cords where the top and bottom walls join the sidewalls. The cords can be incorporated by folding the sheet material around the cord and then sewing the sheet material along a line parallel to the cord so that the cord is in a tube constituted by the material of the liner itself.

Two of the clips of the form shown in FIGS. 1, 2 and 3 are attached to the vertical cords by pressing the cord through the slit 14 into the hollow interior of the portion 12. The clips are slid along the vertical cords to a height which matches that of what are referred to as the horizontal corner bars of the shipping container. When the clips have reached the desired level in the vertical direction, the cable ties which are attached to the clips are looped around the horizontal corner bars, pushed through the slots in the blocks and pulled tight thereby to fix the end wall of the liner to the shipping container.

Clips of the form shown in FIGS. 1 to 3 are attached, as described above, to the cords which are positioned where the side walls meet the top wall. The positions of the clips closest to the end wall are adjusted in the horizontal direction until they are aligned with the lashing points closest to the closed end of the container. The straps of the cable ties which are secured to the clips are then looped around upper, end lashing points, pushed through the slots in the blocks of the cable ties and pulled tight. The parts of the liner's side walls which are closest to the container's end wall are now hanging from the lashing points.

Two of the clips illustrated in FIGS. 4 to 6 are then slid along the cords which are located where the bottom wall of the liner meets the side walls. The positions of the clips are adjusted horizontally until they are aligned with the lower lashing points of the container that are closest to the end wall. The straps of the cable ties are then looped around these lashing points, pushed through the slots of the blocks of the ties, and pulled tight.

Further clips are used to connect the liner to the upper and lower lashing points along the full length of the container.

The clips of FIGS. 1 to 3 are of necessity stronger than the clips of FIGS. 4 to 6 because the liner is hanging from these. The smaller clips of FIGS. 4 to 6, which are used where the bottom wall of the liner merges with the side walls, do not carry significant weight. The cable ties used with the smaller clips are commensurately smaller and less strong than the ties used with the upper clips.

If the clips are to be used to suspend a tarpaulin or other sheet material which is in the form of a curtain, then the cord is incorporated into the tarpaulin along its upper edge. Clips of either of the forms described, depending on the weight of the tarpaulin which is to form the curtain, are slid along the cord until they are appropriately positioned with respect to whatever lashing points are provided and then the ties are used to secure the upper edge of the curtain to the lashing points.

Where the clip 10.2 of FIGS. 7 to 9 has parts in common with the clips of the earlier Figures, like references have been used. Specifically, the cylindrical portion 12, the slit 14 and the semi-cylindrical portions 16, 18 have been correspondingly referenced.

A triangular flange 38 extends for about half the length of the cylindrical portion 12 and protrudes radially outwardly from the portion 12. A short cylinder 40 is moulded integrally with the flange 38. The axis of the portion 12 and the axis of the cylinder 40 are parallel to one another.

Turning now to FIGS. 10 to 12, these illustrate a hook designated 42. The hook is part circular in shape as best seen in FIG. 10. The lower part 44 of the hook turns back on itself through almost 360 degrees to form a transverse opening 46 which has a narrow entrance 48. The hook further includes a straight section 50, the lower part 44 being at one end of the section 50. A semi-circular section 52 extends from the end of the section 50 remote from the part 44. A guide 54 extends from the free end of the section 52.

A plurality of the clips 10.2 of FIGS. 7 to 9 and a plurality of the hooks 42 of FIGS. 10 to 12 are used to suspend a thermally insulating liner in a shipping container.

Part of the side wall of a liner, designated 56, is shown in FIG. 13. The liner has a top wall, elongate side walls and an end wall which closes one end of the liner. A flap is provided at the other end of the liner. One edge of the flap is attached to the remainder of the liner and a releasable fastener, such as a sliding clasp fastener, is provided to connect the other three edges of the flap to the remainder of the liner. The liner can have a floor. However, it is also possible for the liner to be without a floor.

Cords 58 (FIG. 13) extend along the liner where the longitudinally extending edges of the top wall are sewn or otherwise secured to the longitudinally extending upper edges of the sidewalls. The cords are sewn into the seams 60 which are thus formed. The cylindrical portion 12 of the clip 10.2 has an internal diameter such that it can receive the seam 60 which has the cord 58 sewn inside it. The portions 16, 18 are sufficiently flexible to allow the cord 58 to be pressed into the clip 10.2 through the slit 14. The fit of the clip on the seam is such that the clip can readily slide along the seam.

Two further cords 62 are provided. Each of these passes through the cylinders 40 of the respective set of clips 10.2. The cords 62 are thus external of the seam 60. Between each adjacent pair of clips 10.2 there is one of the hooks 42. The cords 50 pass through the passageways 46 in the hooks 42. The hooks 42 can slide along the cords 62.

To secure the liner inside the container, the ends of the cords 62 are tied to anchorages that are provided at the closed end of the container. At this stage the closed end of the liner hangs down from the anchorages and the liner lies on the floor along the length of the container. The first hook 42 on each cord 62 is then attached to those lashing points which are closest to the closed end of the container. The clips 10.2 closest to the closed end of the container are slid along the seams 60 until they are approximately under the first lashing points and hooks. The lashing point is designated 64 in FIG. 13. The guide 54 facilitates attachment of the hook 42 to the lashing point 64.

The next two hooks are attached to the next two lashing points and the next two clips are moved to positions approximately under the hooks. This procedure continues until hooks are attached to all the lashing points that can be accessed and there are clips close to the lashing points which have hooks attached to them.

The ends of the two cords 62 which are at the open end of the liner are then gripped and the cords are pulled is taut as possible. This has the effect of lifting the clips 10.2, and hence the seams 60 to which they are fitted, towards the roof of the container.

Starting at the closed end of the container, the first clips 10.2 on each side are slid along the seams 60 so that the lengths of the parts of the cords 62 between the anchorage points and the first clips are reduced to a minimum. All the remaining clips 10.2 are moved along the seams 60 to shorten the distances between the clips and the adjacent hooks 42. This has the effect of pulling the clips further upwardly and outwardly towards the lashing points. The clips 10.2 on opposite sides of the liner move apart during this procedure and the inevitable sag of the top wall of the liner is reduced. The top wall still sags down under its own weight but not to an extent such that it interferes with loading of the cargo into the liner or touches the goods in the loaded container. 

1. The combination of: a liner of sheet material which has an elongate top wall and elongate side walls; a shipping container having lashing points; first and second sets of clips attached to the liner where longer edges of the top wall join the upper edges of the side walls, the clips having passageways therethrough; hooks attached to the lashing points and having openings therein; a first elongate cord passing through the passageways of the first set of clips and through the hooks that are adjacent the first set of clips, the clips and hooks alternating along the length of the first cord; and a second elongate cord passing through the passageways of the second set of clips and through the hooks that are adjacent the second set of clips, the clips and hooks alternating along the length of the second cord, the liner having attachment zones which are thicker than the sheet material of the liner and which extend along the liner where the longer edges of the top wall join the upper edges of the side walls, and the clips being free to slide along the attachment zones and being positioned under the lashing points.
 2. The combination claimed in claim 1, wherein the passageways are constituted by the bores of cylinders and wherein each clip comprises an elongate hollow portion each of which portions has a longitudinal slit along the length thereof, the liner emerging from said hollow portions of the clips through said slits and the axes of the cylinders and the hollow portions being parallel to one another.
 3. The combination claimed in claim 1, wherein the attachment zones are formed by folding the sheet over on itself with a cord between the superimposed layers, the layers being secured together to trap the cord.
 4. The combination of: a liner of sheet material which has an elongate top wall and elongate side walls; a shipping container having lashing points; two sets of clips attached to the liner where longer edges of the top wall join the upper edges of the side walls, the clips having passageways therethrough, each clip having an elongate hollow portion which is formed with a longitudinal slit along the length thereof; hooks attached to the lashing points and having openings therein; and cords passing through the passageways of the two sets of clips and through the hooks that are adjacent the sets of clips, the clips and hooks alternating along the lengths of the cords, the liner having attachment zones which are thicker than the sheet material of the liner and which extend along the liner where the longer edges of the top wall join the upper edges of the side walls, the attachment zones being in the hollow portions and the sheet material of the liner emerging from the hollow portions through the slits, and the clips being free to slide along the attachment zones and being positioned under the lashing points.
 5. The combination claimed in claim 4, wherein the passageways are constituted by the bores of cylinders and wherein each clip comprises an elongate hollow portion each of which portions has a longitudinal slit along the length thereof, the liner emerging from said hollow portions of the clips through said slits and the axes of the cylinders and the hollow portions being parallel to one another.
 6. The combination claimed in claim 4, wherein the attachment zones are formed by folding the sheet over on itself with a cord between the superimposed layers, the layers being secured together to trap the cord. 